KR101334797B1 - Woolen yarn of conductivity - Google Patents

Abstract

The present invention can obtain conductivity by mixing conductive fibers such as conductive metal yarns in the woolen yarns to produce a conductive yarns, wool (Nylon) short fibers (S / F) having a semi-permanent conductive function In order to provide a conductive spun yarn made by blending (Blending / Mix) to wool, polyester fibers, acrylic fibers, polypropylene fibers or other short fibers, the technical configuration is Wool, polyester (polyester) fiber, acrylic (polycrylic) fiber or polypropylene (Polypropylene) is characterized in that it is produced by spinning the conductive fiber made of a conductive metal yarn.

Description

Woolen yarn of conductivity

The present invention relates to a woolen spun yarn, and more particularly, to a conductive woolen spun yarn that can obtain conductivity by spun spinning conductive fibers such as conductive metal yarns in the woolen spun yarn.

In general, the traditional methods of making the yarn include cotton spinning, waste spinning and wool spinning.

Here, cotton spinning is a process for producing cotton yarn using cotton as a raw material, and is produced through parallelism, polymerization / stretching and twisting.

Worsted Spinning is a spinning method in which a relatively long wool is added, short fibers are removed and stretched and then twisted. The surface of the yarn is smooth, glossy, and less deformed.

The worsted yarns produced by this method can be made into thin woolen fabrics such as Muslin or Tropical and are widely used to make fabrics for Serge, Gaberdine and general suits.

The consumable spinning process consists of washing, carding, combing, drawing, and spinning processes, followed by visa, twisting, and plying, and sequentially Consumed yarn is produced.

Woolen Spinning is made of short-length yarns, and does not go through a series of processes (stretching and twisting) as in the worsted yarns produced by waste spinning. As the spinning method to entangle, it refers to a woolen yarn with a lot of wool on the released surface while maintaining the intrinsic axis of wool fiber.

The yarns produced in this way have a low gloss and are not smooth, but are easily used for finishing such as brushing and shafting, and thus are widely used in thick wool, flannel, wool and wool knit products.

Such a spinning spinning process is composed of a linen, triangulation and carbonization, mixed hair, lubrication, woolen and spinning process, and through this process to produce a yarn spinning yarn.

On the other hand, in recent years, the use of mobile phones such as touch phones and smart phones having a touch screen has been increasing, and the input methods of the mobile phones having such touch screens include an infrared method, an ultrasonic method, a reduced pressure method and an electrostatic method.

Here, the infrared method is a structure in which an infrared sensor composed of an infrared light emitting element and a light receiving element receiving an infrared signal therefrom is arranged, and is operated based on a principle of determining a position coordinate by whether a short circuit occurs by an external object such as a finger. The transparency can be maintained close to 100%, but the manufacturing cost is high.

In addition, the ultrasonic method is a structure that operates on the principle of determining the touched position coordinates by transmitting / receiving ultrasonic waves along the surface of the touch screen. Slow, this also has the disadvantage of high manufacturing cost and low precision.

On the other hand, the decompression method is a structure that is installed by stacking a screen having a plurality of layers on the liquid crystal of the mobile phone, a very flexible, thin top layer (Conductive Layer) for detecting the touch point and the display (Touch) It consists of a stable base layer and a display which are in contact with each other.

The top layer is a thin plastic film that is in direct contact with a finger or a stylus pen. The stable layer is made of an insulating material so that the current flowing in the liquid crystal screen does not affect the operation of the touch screen. The conductive layer for detecting the touch point is composed of two conductive coating layers (Indium Tin Oxide Layrt) having electrical resistance and conductivity.

In this pressure reduction method, when the uppermost layer of the touch screen is pressed by a touch pen such as a finger or a stylus pen, two conductive layers are contacted by physical pressure, and a change in current value and resistance value occurs. Coordinate measurement and input of the pressed point is determined.

The decompression method is inexpensive and detects contact by physical force, so it is not affected by dust or water on the surface and can be touched and recognized by any object, but the transparency is about 75%. It is reduced in the degree, the light transmittance is lower than 85%, and there is a disadvantage that the durability is easy to damage the surface.

In addition, the electrostatic method is a method of using the static electricity of the human body, the coating of a conductive compound to the liquid crystal glass of the touch screen, and consists of a structure that the sensor is attached to each corner.

In the electrostatic method, when a finger touches the touch screen, electrons flowing on the liquid crystal are attracted to the contact point, and the sensor attached to each corner of the touch screen senses the input.

Therefore, even if the touch screen is slightly touched, the touch input is possible to produce an emotional feeling, and because it supports multi-touch, it recognizes several contact areas at the same time.

In addition, since there is no fear of deterioration in image quality by adopting a liquid crystal glass coated with a dielectric, it is generally applied to various mobile phones and tablet PCs.

Such an electrostatic method has the advantage of providing a screen with a higher definition than the decompression method and having a high accuracy when operating with a finger, but has a disadvantage of being able to touch only a conductive object and having a high price. That is, if the material is not a material that induces electrons, such as a finger, or a non-conductor in which electricity does not flow, it is impossible to input a touch and thus cannot be applied to a touch pen such as a stylus pen applied to a pressure-sensitive method.

In addition, the touch screen is not recognized when the user touches the screen while wearing gloves, and there is a possibility that the touch screen may malfunction even with a small damage, and there is a problem in that the cost is increased when the touch screen is damaged or broken.

In addition, the blackout method was inconvenient to use a mobile phone in a cold winter when the temperature is worn, the touch screen with a finger after removing the gloves from the hand. In other words, when a user wears gloves in winter, the user may not be able to transfer the static electricity to the touch screen, and thus the inconvenience of the user having to use the mobile phone after removing the gloves when using the mobile phone is complicated. .

For this reason, there is a need for a conductive fiber to transfer the static electricity of the human body to the touch screen.

Existing conductive fiber to solve this problem is made through a wool spun yarn or twisted yarn mixed with acrylic copper conductive fiber and a general fiber yarn, or a finished product of ordinary wool spun yarn is a copper sulfate / copper nitrate / copper chloride solution It is manufactured by dipping and drying on back.

However, a copper material reacted with a copper solution such as copper sulfide / copper nitrate / copper chloride simply has a problem in that when it comes into contact with air, it is oxidized in several hours / days and loses its function.

The present invention has been made in order to solve the problems as described above, the object of the present invention is to provide a conductive yarn spun yarn that can obtain conductivity by producing a conductive yarn spun yarn by spun yarns conductive fibers such as conductive metal yarn in the yarn spun yarn. It is done.

In addition, the present invention, a semi-permanent conductive conductive nylon (Nylon) short fibers (S / F) wool, polyester (Acrylic) fiber, acrylic (Polypropylene) fiber, polypropylene (Polypropylene) fiber Another object is to provide a conductive spun yarn made by blending (Blending / Mix) to other short fibers.

In addition, the present invention, the conductive fiber contains a copper component is made of a glove that can transmit the static electricity of the human body to provide a conductive yarn spun yarn that can be applied to the touch screen, such as mobile phones, tablet PCs, such as touch phones and smartphones It aims to do it.

In addition, the present invention, by producing a conductive metal yarn mixed with a wool knitting yarn for manufacturing a sweater, it is possible to prevent and remove the static electricity generated in the sweater, etc., conductive metal yarn in the socks yarn for manufacturing socks In the case of manufacturing by mixing the object of the present invention is to provide an antibacterial, anti-odor and deodorizing conductive yarns.

In order to achieve the object as described above, the present invention, wool, polyester (Acrylic) fiber, acrylic (Acrylic) fiber or polypropylene (Polypropylene) produced by spinning the conductive fiber made of conductive metal yarns It is characterized by.

Here, the conductive fiber is made of copper conductive nylon (SyF) short fibers (S / F).

At this time, the copper conductive nylon (Nylon) short fibers (S / F) is prepared by ion-bonding copper sulfide to the nylon fiber.

Preferably, 1 to 99 parts by weight of mixed fibers in which wool, polyester fibers, acrylic fibers or polypropylene fibers are mixed, and 1 to 99 parts by weight of conductive fibers It is produced with a woolen number of 1 / 6NM ~ 2 / 32NM.

Here, the composition ratio of wool, polyester fiber, acrylic fiber or polypropylene fiber is 30 to 70 parts by weight of wool, polyester fiber, acrylic ) Fiber or polypropylene fiber is made of 10 to 30 parts by weight to produce a woolen number of 1 / 6NM ~ 2 / 32NM.

Alternatively, wool is comprised of 1 to 99 parts by weight and conductive fibers 1 to 99 parts by weight to produce a woolen yarn of 1/6 NM to 2/32 NM.

And, the polyester fiber (Polyester) is made of 1 to 99 parts by weight, conductive fibers 1 to 99 parts by weight is produced in the number of yarns 1 / 6NM ~ 2 / 32NM.

In addition, 1 to 99 parts by weight of acrylic (Acrylic) fibers, and 1 to 99 parts by weight of conductive fibers are produced in the number of yarns 1 / 6NM ~ 2 / 32NM.

In addition, 1 to 99 parts by weight of polypropylene fibers and 1 to 99 parts by weight of conductive fibers are made of 1/6 NM to 2/32 NM.

On the other hand, the conductive fibers made of conductive metal yarns are spun and spun to prepare a woolen yarn having a number of 1/6 NM to 2/32 NM.

As described above, the present invention having the configuration as described above can achieve the effect of having a semi-permanent conductive function that does not oxidize in the air by spinning yarns of conductive fibers such as conductive metal yarns in the yarns.

In addition, the present invention is capable of manufacturing a glove applicable to the touch screen, such as mobile phones, tablet PCs, such as touch phones and smartphones, and this is why the removal of gloves for use of mobile phones, tablet PCs, such as touch phones and smartphones It does not need to improve the convenience of use, has the same lifespan and thermal insulation function as general gloves, and the copper component contained in the conductive fiber can achieve the effects of antibacterial, anti-odor and deodorizing function.

In addition, the present invention can be applied to and manufactured in sweaters, socks and various other functional clothing, thereby preventing and removing intrinsic static electricity and at the same time have additional effects such as antibacterial, anti-odor, deodorant and electromagnetic shielding.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the scope of the present invention, but is merely an example, and various modifications can be made without departing from the technical spirit of the present invention.

The conductive spun yarn according to the present invention is produced by spun and spinning conductive fibers made of conductive metal yarns on wool, polyester fibers, acrylic fibers or polypropylene fibers.

Here, in one embodiment of the present invention was applied to the wool yarn (wool) was applied to the yarn (wool) was produced as a yarn spinning yarn, silk, cashmere, angora, alpaca, linen, lami, etc. may be applied as a raw material of the yarn.

In addition, in one embodiment of the present invention, polyester (polyester), acrylic (polycrylic), or polypropylene (polypropylene) fibers are produced in spun yarn spun yarn, but also polyester, nylon, rayon, lyocell It is also possible to apply other short fibers such as tencel, modal, bamboo fiber and PP.

The conductive fiber is made of a conductive metal yarn.

Here, the conductive fiber is made of copper conductive nylon (Nylon) short fibers (S / F). At this time, the copper conductive nylon (Nylon) short fibers (S / F) is prepared by ion-bonding copper sulfide (CuS) to nylon fibers.

Thus, copper conductive nylon (Nylon) short fibers (S / F) produced by ion-bonding copper sulfide (CuS) to the nylon fiber has conductivity, and the conductivity is stable to mechanical friction or chemical reaction, Excellent for blending with fibers.

Here, copper sulfide (CuS) is an antibacterial metal, and after ionization, reaches the cell membrane of the microorganism by diffusion and adsorbs with the protein, and also destroys the structure of the cell, making metabolism impossible, thereby inhibiting the growth of bacteria. Therefore, when manufacturing a conductive glove for a touch screen, it can give an antimicrobial effect to the glove, can suppress the smell of sweat, odor and bacteria itself can obtain an excellent deodorizing effect.

In addition, when wearing a glove to which conductive conductive yarns are applied, the metal component of copper sulfide (CuS) is thermally exercised to obtain thermal and thermal storage effects when the glove is worn.

On the other hand, the conductive spun yarn is composed of 1 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers, and 1 to 99 parts by weight of conductive fibers.

In this case, the conductive spun yarn is preferably made of 40 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers, 1 to 60 parts by weight of conductive fibers. .

Alternatively, the conductive spun yarn consists of 40 to 97 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers, and 3 to 60 parts by weight of conductive fibers. It is more preferable.

Herein, the composition ratio of the wool, polyester fiber, acrylic fiber or polypropylene fiber is 30 to 70 parts by weight of the wool, and the polyester fiber The acrylic fiber or polypropylene fiber is composed of 10 to 30 parts by weight.

In one embodiment of the present invention, the conductive spun yarn is 1 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers, 1 to 99 parts by weight of conductive fibers It is made of a portion, but it is also possible that the conductive yarn spun yarn 1 to 99 parts by weight of wool, 1 to 99 parts by weight of conductive fibers.

In addition, the conductive spun yarn may be made of 1 to 99 parts by weight of polyester fibers, 1 to 99 parts by weight of conductive fibers, the conductive spun yarn is 1 to 99 parts by weight of acrylic fibers, conductive fibers 1 It is also possible to comprise from 99 parts by weight, and the conductive yarn spun yarn may be composed of 1 to 99 parts by weight of polypropylene fibers, and 1 to 99 parts by weight of conductive fibers.

Here, the conductive woolen yarn as described above is made in the form of spun yarn having a woolen yarn number (NM) of 1 / 6NM ~ 2 / 32NM.

On the other hand, the conductive spun yarn may be made of only a conductive fiber made of a conductive metal yarn. As described above, the conductive yarn spun yarn made of only conductive fibers of conductive metal yarns can be mixed and used in various fabrics or other short fibers, thereby preventing static electricity, antibacterial, anti-odor, deodorizing, electromagnetic wave shielding, and the like. Can play a role.

In this case, the conductive spun yarn is made in the form of spun yarn having a woolen number NM of 1 / 6NM to 2 / 32NM.

The conductive spun yarn prepared as described above is 10 ⁶ Ω / cm when 10 parts by weight of the conductive fiber is contained, 10 ⁵ Ω / cm when it is contained by 20 parts by weight, 10 ⁴ Ω / cm when it is contained by 30 parts by weight, 40 If it contains by weight, it contains 10 ³ Ω / cm, and if it contains 50 parts by weight, it has an electrical resistance of 2 × 10 ² Ω / cm.

unit: 10 ⁴ Ωcm SMARTLON Before washing 1 time washing 3 times washing 14's 20% Back of hand
Recognition
thumb
stop 30, 70, 60
60, 30, 30
70, 55, 60
50, 80, 100 200, 200, 150
110, 200, 150
200, 200, 200
110, 100, 150 500, 500, 300
200, 200, 150
500, 400, 500
2K, 1K, 1K 12's 20% Back of hand
Recognition
thumb
stop 20, 18, 20
32, 32, 50
22, 21, 30
28, 20, 30 40, 60, 50
35, 70, 70
60, 60, 100
40, 30, 30 150, 30, 120
90, 100, 140
150, 150, 150
55, 150, 150 14's 30% Back of hand
Recognition
thumb
stop 4, 4, 4
4.4, 3.5, 2.5
3, 4, 4
4, 5, 5
4, 4, 4
6, 8, 7
6.5, 4.5, 7
9, 7, 6
9, 20, 14
60, 100, 70
100, 100, 80
100, 100, 100 16's 30% Back of hand
Recognition
thumb
stop 3, 2, 2
2, 2, 2
3, 3.5, 5
3.5, 2, 1.5 4.5, 5, 4.5
3, 3, 2.5
6, 5, 5
3, 3, 4 15, 15, 25
150, 100, 40
80, 60, 70
30, 20, 30

Before and after washing of the gloves prepared in the manufacture of the gloves by applying the conductive spun yarn according to the present invention are shown in [Table 1].

As shown in Table 1, uniformity was detected three times in the back of the hand, cognition, thumb, middle finger before washing, and uniformity was detected three times in the back of the hand, cognition, thumb, middle finger after washing once and three times. At this time, the experiment was performed with a glove including 20 parts by weight of conductive fibers in 14's, a glove including 20 parts by weight of conductive fibers in 12's, a glove including 30 parts by weight of conductive fibers in 14's, and a glove including 30 parts by weight of conductive fibers in 16's.

As a result of the experiment, it can be seen that a stable uniformity appears even after washing several times, and has strength and elongation as shown in [Table 2].

Yarn burglar Shindo 12's NF (20%) 400g 15% 14's (20%) 400g 15% 14's NF (30%) 450g 15% 16's (30%) 300g 15%

Hereinafter, the manufacturing process of the conductive spun yarn according to the present invention will be described.

1. Import and purchase of raw materials

2. Necessary raw material search (Fiber dyeing)

3. Oiling & Blending

The roving winding of the woolen carding machine is removed, the web discharged from the woolen carding machine is collected and compressed, and then made into a top shape. The top thus made is adjusted in thickness in the first softening machine of the cotton spinning process, and the raw materials are mixed well by doubling and drafting in the second softening machine and the third softening machine, and the fibers are mixed well. To increase the parallelism. At this time, the distance between rollers for drafting (Roller) is adjusted in accordance with the fiber length of the fibers to be supplied, so that the excessively long hair fibers are subjected to braking.

4. Carding (Sliver process)

The softened sliver manufactures roving in the usual way, but when the fiber length of 60mm or more is mixed, drafting is carried out using a grooved top roller. )do. Roving made in this way is supplied to a spinning machine. In this case, the grooved middle roller and the top roller are used to prevent the long fibers from being simultaneously held by the middle roller and the front roller.

5. Spinning (Mule Spinning System)

In the square, T.P.M (the number of twists) is 10-30% higher than that of woolen hair. The spindle rpm (rotation speed) is adjusted to about 6,000 to 10,000 depending on the combination of raw materials. Winding process and twisted yarn are the same as those of ordinary wool yarn. The T.P.M (number of twists) of the speakers is determined to be a twist balance. Since the strength of single yarn is 10 ~ 20% higher than that of woolen yarn, the speed of twisted yarn can be increased 20 ~ 50% than woolen yarn. Although the produced wool yarn uses raw materials commonly used in the woolen process, the uniformity and strength of the yarn are improved, the quality of the yarn is improved, and the yarn can be used as a single yarn. Since it does not change significantly, when the sweater is manufactured by producing two twisted twisted yarns, there is no distortion of the sweater, and the surface has a feeling of high quality worsted yarn, and at the same time, it has a unique volume (Volume) feeling of the woolen yarn, thereby producing an ideal sweater. Since the number of twists (TPM) applied when making yarn in the square is somewhat higher than that of the conventional spinning method, the sweater manufactured by the method of the present invention is peeled compared to the sweater made of the yarn of yarn manufactured by the conventional method using the same raw material. Pilling grade is improved by 0.5 ~ 1.0 level.

In addition to the three-ply twisted yarns, the number of pre- and post-tenure tachypounds has the effect of reducing the production cost of woolen yarn and improving the sweater quality due to the improvement of the uniformity, the improvement of the yarn strength and the reduction of the trimming. In the conventional method, the gauge of the woolen yarn sweater can be up to 12G, but the yarn of the woolen yarn sweater is available for 14G and 16G, enabling breakthrough material innovation in this field. On the other hand, the web collected from the woolen carding machine is not only made into a top (Top) but also through a coiler device in a can is supplied to the softening.

Process number 3 is applied to spun yarn spinning yarn, but the process number can be three times shorter than process number 1. However, compared to process number 3, the number and number of sanding agents which are slightly restricted by the number of hydration are not improved. Compared to the woolen method, it is an innovative method that can produce three times the number.

Conventionally, when spinning wool yarn, winding the roving made by thinly evenly dividing the web coming out of the woolen carding machine and spreading it on four spindles by 48 strands, and then the roving bundle of the mule spinning machine It is mounted on the device and actively driven to loosen the roving, and at the same time to burn the wool yarn to produce a yarn. At this time, since the draft does not pass through the active drafting device, the draft is not applied, but the tapering is thinned by 1.0 to 1.2 due to natural tension. Supplying the rowing made in the conventional woolen carding machine to the draft mechanism of the cotton spinning machine, and applying a draft of about 1.0 to 3.0 times, it is possible to make the yarn much thinner than the yarn made by supplying the conventional wool wool spinning machine with the same rowing. At this time, when the length of the fiber length is significantly different from each other, or when 30 mm or more fibers are mixed, a grooved top roller is used, and fibers 100 mm or more are drafted with nodules.

6.Winding (Auto Winder)

7. Packing

Example  One

Wool, polyester fiber, acrylic fiber or polypropylene fiber, other short fibers and angora hair are used, and each raw material is dyed according to the mixing ratio, followed by oiling and mixing of raw materials ( After the combination process such as mixing) process, the web is made through the anti-wear carding process, and the roving is made through the dividing device. The rovings are transferred back to the spinning machine to produce and produce yarns with about 240-400 TPM of flamming with 25-30% drafting at 5,000 to 6,000 RPM of rotation of the spindle. The number of yarns produced varies from 1 / 6NM to 2 / 32NM, and is used as sweaters, socks, gloves, and yarns of special functional fabrics through single yarn or plywood and twisting. In the case of copper conductive yarn, the yarn is mixed with copper conductive nylon fibers.

1 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers are mixed with mixed fibers and 1 to 99 parts by weight of conductive fibers. Mix with a saw to make irradiation via soft-crude.

Here, the composition ratio of wool, polyester fiber, acrylic fiber or polypropylene fiber is 30 to 70 parts by weight of wool, polyester fiber, acrylic ) 10-30 parts by weight of fibers or polypropylene fibers and conductive fibers are mixed with a top of a woolen spinning raw material to make irradiation through soft spinning and spinning, and the irradiation is carried out through a woolen spinning square process to produce a conductive woolen yarn. do.

Then, the yarn is spliced into 2, 3, to prepare a yarn for yarn touch screen gloves containing 30 to 60% of the conductive fiber.

At this time, the conductive fiber is made of copper conductive nylon (Nylon) short fibers (S / F) ion-bonded copper sulfide (CuS) to nylon fibers.

Example  2

Wool, polyester fiber, acrylic fiber or polypropylene fiber, other short fibers and angora hair are used, and each raw material is dyed according to the mixing ratio, followed by oiling and mixing of raw materials ( After the combination process such as mixing) process, the web is made through the anti-wear carding process, and the roving is made through the dividing device. The rovings are transferred back to the spinning machine to produce and produce yarns with about 240-400 TPM of flamming with 25-30% drafting at 5,000 to 6,000 RPM of rotation of the spindle. The number of yarns produced varies from 1 / 6NM to 2 / 32NM, and is used as sweaters, socks, gloves, and yarns of special functional fabrics through single yarn or plywood and twisting. In the case of copper conductive yarn, the yarn is mixed with copper conductive nylon fibers.

1 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers are mixed with mixed fibers and 1 to 99 parts by weight of conductive fibers. Mix with a saw to make irradiation via soft-crude.

Here, the composition ratio of wool, polyester fiber, acrylic fiber or polypropylene fiber is 30 to 70 parts by weight of wool, polyester fiber, acrylic ) 10-30 parts by weight of fibers or polypropylene fibers and conductive fibers are mixed with a top of a woolen spinning raw material to make irradiation through soft spinning and spinning, and the irradiation is carried out through a woolen spinning square process to produce a conductive woolen yarn. do.

Then, the yarns are combined together in two or three pieces to prepare a woolen yarn for antistatic sweaters containing 2 to 3% of conductive fibers.

At this time, the conductive fiber is made of copper conductive nylon (Nylon) short fibers (S / F) ion-bonded copper sulfide (CuS) to nylon fibers.

Example  3

Wool, polyester fiber, acrylic fiber or polypropylene fiber, other short fibers and angora hair are used, and each raw material is dyed according to the mixing ratio, followed by oiling and mixing of raw materials ( After the combination process such as mixing) process, the web is made through the anti-wear carding process, and the roving is made through the dividing device. The rovings are transferred back to the spinning machine to produce and produce yarns with about 240-400 TPM of flamming with 25-30% drafting at 5,000 to 6,000 RPM of rotation of the spindle. The number of yarns produced varies from 1 / 6NM to 2 / 32NM, and is used as sweaters, socks, gloves, and yarns of special functional fabrics through single yarn or plywood and twisting. In the case of copper conductive yarn, the yarn is mixed with copper conductive nylon fibers.

1 to 99 parts by weight of wool, polyester fibers, acrylic fibers or polypropylene fibers are mixed with mixed fibers and 1 to 99 parts by weight of conductive fibers. Mix with a saw to make irradiation via soft-crude.

Here, the composition ratio of wool, polyester fiber, acrylic fiber or polypropylene fiber is 30 to 70 parts by weight of wool, polyester fiber, acrylic ) 10-30 parts by weight of fibers or polypropylene fibers and conductive fibers are mixed with a top of a woolen spinning raw material to make irradiation through soft spinning and spinning, and the irradiation is carried out through a woolen spinning square process to produce a conductive woolen yarn. do.

Then, the two yarns, three times plyed together to produce a 5% conductive fiber-containing antibacterial, antibacterial cotton wool yarn.

At this time, the conductive fiber is made of copper conductive nylon (Nylon) short fibers (S / F) ion-bonded copper sulfide (CuS) to nylon fibers.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be easy for anyone to know.

Claims (10)

Manufactured by spinning and spinning conductive fibers made of copper conductive nylon (S / F) on wool, polyester fibers, acrylic fibers or polypropylene fibers. Conductive wool spinning yarn characterized in that.
delete The method according to claim 1,
The copper conductive nylon (Nylon) short fibers (S / F) is a conductive yarn spun yarn, characterized in that is produced by ion-bonding copper sulfide (CuS) to nylon fibers.
The method according to claim 1,
1 to 99 parts by weight of the mixed fiber in which the wool, polyester fiber, acrylic fiber or polypropylene fiber is mixed, and the conductive fiber is 1 to 99 parts by weight 1 A conductive yarn spinning yarn, characterized in that produced in the yarn count of / 6NM ~ 2 / 32NM.
The method of claim 4,
The composition ratio of the wool, polyester fibers, acrylic fibers or polypropylene fibers is 30 to 70 parts by weight of the wool, the polyester fibers, acrylic ) Conductive spun yarn, characterized in that the fiber or polypropylene fibers made of 10 to 30 parts by weight of the number of yarns 1 / 6NM ~ 2 / 32NM.
The method according to claim 1,
1 to 99 parts by weight of the wool (Wool), the conductive fiber is spun yarn, characterized in that made of 1 / 6NM ~ 2 / 32NM of woolen number consisting of 1 to 99 parts by weight of the conductive fiber.
The method according to claim 1,
1 to 99 parts by weight of the polyester fiber (Polyester), 1 to 99 parts by weight of the conductive fiber is made of 1 / 6NM ~ 2 / 32NM conductive yarn spun yarn, characterized in that produced by the number of yarns.
The method according to claim 1,
1 to 99 parts by weight of the acrylic fiber (Acrylic), 1 to 99 parts by weight of the conductive fiber conductive yarn spun yarn, characterized in that produced by the number of yarns 1 / 6NM ~ 2 / 32NM.
The method according to claim 1,
1 to 99 parts by weight of the polypropylene (Polypropylene) fibers, 1 to 99 parts by weight of the conductive fiber is made of 1 / 6NM ~ 2 / 32NM conductive yarn spun yarn, characterized in that produced by the number of yarns.
A conductive yarn spun yarn, characterized in that the yarn is made of yarn number of 1 / 6NM ~ 2 / 32NM by spun the conductive fiber made of copper (Nylon) short fibers (S / F).